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C $Header: /u/gcmpack/MITgcm/pkg/exf/exf_readparms.F,v 1.25 2005/02/21 05:32:55 dimitri Exp $ |
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C $Name: $ |
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|
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#include "EXF_OPTIONS.h" |
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#ifdef ALLOW_OBCS |
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# include "OBCS_OPTIONS.h" |
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#endif |
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|
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subroutine exf_readparms( mythid ) |
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|
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c ================================================================== |
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c SUBROUTINE exf_readparms |
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c ================================================================== |
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c |
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c o This routine initialises the package that calculates external |
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c forcing fields for a given timestep of the MITgcmUV. Parameters |
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c for this package are set in "data.externalforcing". Some additional |
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c precompiler switches have to be specified in "EXF_OPTIONS.h". |
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c |
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c started: Christian Eckert eckert@mit.edu 30-Jun-1999 |
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c |
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c changed: Christian Eckert eckert@mit.edu 11-Jan-2000 |
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c - Restructured the code in order to create a package |
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c for the MITgcmUV. |
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c Christian Eckert eckert@mit.edu 12-Feb-2000 |
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c - Changed Routine names (package prefix: exf_) |
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c changed: Patrick Heimbach, heimbach@mit.edu 04-May-2000 |
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c - changed the handling of precip and sflux with respect |
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c to CPP options ALLOW_BULKFORMULAE and ALLOW_ATM_TEMP |
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c changed: Ralf.Giering@FastOpt.de 25-Mai-20000 |
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c - moved relaxation and climatology to extra routines |
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c Patrick Heimbach, heimbach@mit.edu 04-May-2000 |
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c - added obcs parameters |
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c changed: Virginie Thierry, vthierry@ucsd.edu 04-June-2001 |
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c - added new obcs parameters (for each boundaries) |
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c included runoff D. Stammer, Nov. 25, 2001 |
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c included pressure forcing. heimbach@mit.edu 05-Nov-2002 |
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c added "repeatPeriod" for cycling of forcing datasets 19-Dec-2002 |
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c mods for pkg/seaice: menemenlis@jpl.nasa.gov 20-Dec-2002 |
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c |
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c ================================================================== |
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c SUBROUTINE exf_readparms |
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c ================================================================== |
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|
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implicit none |
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|
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c == global variables == |
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|
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#include "EEPARAMS.h" |
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#include "SIZE.h" |
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#include "PARAMS.h" |
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#include "cal.h" |
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#include "exf.h" |
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#include "exf_param.h" |
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#include "exf_constants.h" |
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|
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c == routine arguments == |
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|
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integer mythid |
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|
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c == local variables == |
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|
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integer i |
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integer date_array(4), difftime(4) |
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integer iUnit |
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|
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character*(max_len_mbuf) msgbuf |
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|
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c == end of interface == |
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|
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c Surface flux data. |
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namelist /exf_nml/ |
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& windstressmax, repeatPeriod, exf_albedo, |
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& hfluxstartdate1, hfluxstartdate2, hfluxperiod, |
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& atempstartdate1, atempstartdate2, atempperiod, |
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& aqhstartdate1, aqhstartdate2, aqhperiod, |
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& sfluxstartdate1, sfluxstartdate2, sfluxperiod, |
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& evapstartdate1, evapstartdate2, evapperiod, |
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& precipstartdate1, precipstartdate2, precipperiod, |
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& runoffstartdate1, runoffstartdate2, runoffperiod, |
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& ustressstartdate1, ustressstartdate2, ustressperiod, |
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& vstressstartdate1, vstressstartdate2, vstressperiod, |
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& uwindstartdate1, uwindstartdate2, uwindperiod, |
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& vwindstartdate1, vwindstartdate2, vwindperiod, |
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& swfluxstartdate1, swfluxstartdate2, swfluxperiod, |
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& lwfluxstartdate1, lwfluxstartdate2, lwfluxperiod, |
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& swdownstartdate1, swdownstartdate2, swdownperiod, |
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& lwdownstartdate1, lwdownstartdate2, lwdownperiod, |
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& obcsNstartdate1, obcsNstartdate2, obcsNperiod, |
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& obcsSstartdate1, obcsSstartdate2, obcsSperiod, |
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& obcsEstartdate1, obcsEstartdate2, obcsEperiod, |
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& obcsWstartdate1, obcsWstartdate2, obcsWperiod, |
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&apressurestartdate1,apressurestartdate2,apressureperiod, |
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& hfluxfile, atempfile, aqhfile, |
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& sfluxfile, precipfile, runofffile, |
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& ustressfile, vstressfile, evapfile, |
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& uwindfile, vwindfile, |
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& swfluxfile, lwfluxfile, apressurefile, |
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& swdownfile, lwdownfile, |
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& exf_iprec, exf_yftype, |
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& useExfYearlyFields, twoDigitYear, useExfCheckRange, |
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& exf_inscal_hflux, exf_inscal_sflux, |
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& exf_inscal_ustress, exf_inscal_vstress, |
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& exf_inscal_uwind, exf_inscal_vwind, exf_inscal_evap, |
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& exf_inscal_atemp, exf_offset_atemp, exf_inscal_aqh, |
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& exf_inscal_sst, exf_inscal_sss, |
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& exf_inscal_swflux, exf_inscal_lwflux, exf_inscal_precip, |
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& exf_inscal_runoff, exf_inscal_apressure, |
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& exf_inscal_swdown, exf_inscal_lwdown, |
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& exf_outscal_hflux, exf_outscal_ustress, exf_outscal_vstress, |
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& exf_outscal_swflux, exf_outscal_sst, exf_outscal_sss, |
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& exf_outscal_sflux, exf_outscal_apressure, |
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& hfluxconst, |
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& atempconst, |
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& aqhconst, |
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& sfluxconst, |
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& evapconst, |
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& precipconst, |
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& runoffconst, |
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& ustressconst, |
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& vstressconst, |
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& uwindconst, |
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& vwindconst, |
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& swfluxconst, |
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& lwfluxconst, |
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& swdownconst, |
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& lwdownconst, |
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& apressureconst |
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#ifdef USE_EXF_INTERPOLATION |
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& ,ustress_lon0, ustress_lon_inc, ustress_lat0, ustress_lat_inc, |
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& ustress_nlon, ustress_nlat, |
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& vstress_lon0, vstress_lon_inc, vstress_lat0, vstress_lat_inc, |
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& vstress_nlon, vstress_nlat, |
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& hflux_lon0, hflux_lon_inc, hflux_lat0, hflux_lat_inc, |
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& hflux_nlon, hflux_nlat, |
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& sflux_lon0, sflux_lon_inc, sflux_lat0, sflux_lat_inc, |
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& sflux_nlon, sflux_nlat, |
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& swflux_lon0, swflux_lon_inc, swflux_lat0, swflux_lat_inc, |
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& swflux_nlon, swflux_nlat, |
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& runoff_lon0, runoff_lon_inc, runoff_lat0, runoff_lat_inc, |
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& runoff_nlon, runoff_nlat, |
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& atemp_lon0, atemp_lon_inc, atemp_lat0, atemp_lat_inc, |
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& atemp_nlon, atemp_nlat, |
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& aqh_lon0, aqh_lon_inc, aqh_lat0, aqh_lat_inc, |
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& aqh_nlon, aqh_nlat, |
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& evap_lon0, evap_lon_inc, evap_lat0, evap_lat_inc, |
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& evap_nlon, evap_nlat, |
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& precip_lon0, precip_lon_inc, precip_lat0, precip_lat_inc, |
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& precip_nlon, precip_nlat, |
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& uwind_lon0, uwind_lon_inc, uwind_lat0, uwind_lat_inc, |
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& uwind_nlon, uwind_nlat, |
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& vwind_lon0, vwind_lon_inc, vwind_lat0, vwind_lat_inc, |
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& vwind_nlon, vwind_nlat, |
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& lwflux_lon0, lwflux_lon_inc, lwflux_lat0, lwflux_lat_inc, |
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& lwflux_nlon, lwflux_nlat, |
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& swdown_lon0, swdown_lon_inc, swdown_lat0, swdown_lat_inc, |
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& swdown_nlon, swdown_nlat, |
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& lwdown_lon0, lwdown_lon_inc, lwdown_lat0, lwdown_lat_inc, |
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& lwdown_nlon, lwdown_nlat, |
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& apressure_lon0,apressure_lon_inc, |
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& apressure_lat0,apressure_lat_inc, |
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& apressure_nlon,apressure_nlat |
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#endif |
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|
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_BEGIN_MASTER(mythid) |
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|
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c Set default values. |
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|
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year2sec = 365.*86400. |
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|
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c Calendar data. |
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hfluxstartdate1 = 0 |
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hfluxstartdate2 = 0 |
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hfluxperiod = 0.0 _d 0 |
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hfluxconst = 0.0 _d 0 |
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|
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atempstartdate1 = 0 |
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atempstartdate2 = 0 |
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atempperiod = 0.0 _d 0 |
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atempconst = celsius2K |
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|
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aqhstartdate1 = 0 |
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aqhstartdate2 = 0 |
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aqhperiod = 0.0 _d 0 |
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aqhconst = 0.0 _d 0 |
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|
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sfluxstartdate1 = 0 |
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sfluxstartdate2 = 0 |
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sfluxperiod = 0.0 _d 0 |
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sfluxconst = 0.0 _d 0 |
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|
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evapstartdate1 = 0 |
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evapstartdate2 = 0 |
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evapperiod = 0.0 _d 0 |
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evapconst = 0.0 _d 0 |
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|
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precipstartdate1 = 0 |
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precipstartdate2 = 0 |
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precipperiod = 0.0 _d 0 |
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precipconst = 0.0 _d 0 |
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|
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runoffstartdate1 = 0 |
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runoffstartdate2 = 0 |
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runoffperiod = 0.0 _d 0 |
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runoffconst = 0.0 _d 0 |
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|
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ustressstartdate1 = 0 |
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ustressstartdate2 = 0 |
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ustressperiod = 0.0 _d 0 |
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ustressconst = 0.0 _d 0 |
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|
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vstressstartdate1 = 0 |
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vstressstartdate2 = 0 |
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vstressperiod = 0.0 _d 0 |
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vstressconst = 0.0 _d 0 |
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|
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uwindstartdate1 = 0 |
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uwindstartdate2 = 0 |
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uwindperiod = 0.0 _d 0 |
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uwindconst = 0.0 _d 0 |
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|
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vwindstartdate1 = 0 |
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vwindstartdate2 = 0 |
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vwindperiod = 0.0 _d 0 |
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vwindconst = 0.0 _d 0 |
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|
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swfluxstartdate1 = 0 |
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swfluxstartdate2 = 0 |
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swfluxperiod = 0.0 _d 0 |
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swfluxconst = 0.0 _d 0 |
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|
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lwfluxstartdate1 = 0 |
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lwfluxstartdate2 = 0 |
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lwfluxperiod = 0.0 _d 0 |
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lwfluxconst = 0.0 _d 0 |
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|
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swdownstartdate1 = 0 |
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swdownstartdate2 = 0 |
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swdownperiod = 0.0 _d 0 |
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swdownconst = 0.0 _d 0 |
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|
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lwdownstartdate1 = 0 |
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lwdownstartdate2 = 0 |
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lwdownperiod = 0.0 _d 0 |
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lwdownconst = 0.0 _d 0 |
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|
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obcsNstartdate1 = 0 |
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obcsNstartdate2 = 0 |
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obcsNperiod = 0.0 _d 0 |
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|
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obcsSstartdate1 = 0 |
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obcsSstartdate2 = 0 |
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obcsSperiod = 0.0 _d 0 |
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|
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obcsEstartdate1 = 0 |
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obcsEstartdate2 = 0 |
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obcsEperiod = 0.0 _d 0 |
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|
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obcsWstartdate1 = 0 |
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obcsWstartdate2 = 0 |
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obcsWperiod = 0.0 _d 0 |
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|
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apressurestartdate1 = 0 |
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apressurestartdate2 = 0 |
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apressureperiod = 0.0 _d 0 |
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apressureconst = 0.0 _d 0 |
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|
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repeatPeriod = 0.0 _d 0 |
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exf_albedo = 0.1 _d 0 |
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windstressmax = 2.0 _d 0 |
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|
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c Data files. |
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hfluxfile = ' ' |
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atempfile = ' ' |
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aqhfile = ' ' |
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evapfile = ' ' |
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precipfile = ' ' |
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sfluxfile = ' ' |
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runofffile = ' ' |
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ustressfile = ' ' |
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vstressfile = ' ' |
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uwindfile = ' ' |
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vwindfile = ' ' |
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swfluxfile = ' ' |
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lwfluxfile = ' ' |
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swdownfile = ' ' |
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lwdownfile = ' ' |
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apressurefile = ' ' |
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|
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c Start dates. |
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hfluxstartdate = 0. |
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atempstartdate = 0. |
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aqhstartdate = 0. |
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evapstartdate = 0. |
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precipstartdate = 0. |
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sfluxstartdate = 0. |
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runoffstartdate = 0. |
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ustressstartdate = 0. |
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vstressstartdate = 0. |
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uwindstartdate = 0. |
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vwindstartdate = 0. |
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swfluxstartdate = 0. |
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lwfluxstartdate = 0. |
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swdownstartdate = 0. |
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lwdownstartdate = 0. |
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obcsNstartdate = 0. |
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obcsSstartdate = 0. |
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obcsEstartdate = 0. |
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obcsWstartdate = 0. |
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apressurestartdate = 0. |
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|
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c Initialise file type and field precision |
313 |
exf_iprec = 32 |
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exf_yftype = 'RL' |
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useExfYearlyFields = .FALSE. |
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twoDigitYear = .FALSE. |
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useExfCheckRange = .TRUE. |
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|
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c Input scaling factors. |
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exf_inscal_hflux = 1. _d 0 |
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exf_inscal_sflux = 1. _d 0 |
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exf_inscal_ustress = 1. _d 0 |
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exf_inscal_vstress = 1. _d 0 |
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exf_inscal_uwind = 1. _d 0 |
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exf_inscal_vwind = 1. _d 0 |
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exf_inscal_swflux = 1. _d 0 |
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exf_inscal_lwflux = 1. _d 0 |
328 |
exf_inscal_precip = 1. _d 0 |
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exf_inscal_sst = 1. _d 0 |
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exf_inscal_sss = 1. _d 0 |
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exf_inscal_atemp = 1. _d 0 |
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exf_offset_atemp = 0. _d 0 |
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exf_inscal_aqh = 1. _d 0 |
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exf_inscal_evap = 1. _d 0 |
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exf_inscal_apressure = 1. _d 0 |
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exf_inscal_runoff = 1. _d 0 |
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exf_inscal_swdown = 1. _d 0 |
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exf_inscal_lwdown = 1. _d 0 |
339 |
|
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c Output scaling factors. |
341 |
exf_outscal_hflux = 1. _d 0 |
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exf_outscal_sflux = 1. _d 0 |
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exf_outscal_ustress = 1. _d 0 |
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exf_outscal_vstress = 1. _d 0 |
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exf_outscal_swflux = 1. _d 0 |
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exf_outscal_sst = 1. _d 0 |
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exf_outscal_sss = 1. _d 0 |
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exf_outscal_apressure= 1. _d 0 |
349 |
|
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#ifdef USE_EXF_INTERPOLATION |
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ustress_lon0 = thetaMin |
352 |
uwind_lon0 = thetaMin |
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vstress_lon0 = thetaMin + delX(1) / 2 |
354 |
hflux_lon0 = thetaMin + delX(1) / 2 |
355 |
sflux_lon0 = thetaMin + delX(1) / 2 |
356 |
swflux_lon0 = thetaMin + delX(1) / 2 |
357 |
runoff_lon0 = thetaMin + delX(1) / 2 |
358 |
atemp_lon0 = thetaMin + delX(1) / 2 |
359 |
aqh_lon0 = thetaMin + delX(1) / 2 |
360 |
evap_lon0 = thetaMin + delX(1) / 2 |
361 |
precip_lon0 = thetaMin + delX(1) / 2 |
362 |
vwind_lon0 = thetaMin + delX(1) / 2 |
363 |
lwflux_lon0 = thetaMin + delX(1) / 2 |
364 |
swdown_lon0 = thetaMin + delX(1) / 2 |
365 |
lwdown_lon0 = thetaMin + delX(1) / 2 |
366 |
apressure_lon0 = thetaMin + delX(1) / 2 |
367 |
vstress_lat0 = phimin |
368 |
vwind_lat0 = phimin |
369 |
ustress_lat0 = phimin + delY(1) / 2 |
370 |
hflux_lat0 = phimin + delY(1) / 2 |
371 |
sflux_lat0 = phimin + delY(1) / 2 |
372 |
runoff_lat0 = phimin + delY(1) / 2 |
373 |
swflux_lat0 = phimin + delY(1) / 2 |
374 |
atemp_lat0 = phimin + delY(1) / 2 |
375 |
aqh_lat0 = phimin + delY(1) / 2 |
376 |
evap_lat0 = phimin + delY(1) / 2 |
377 |
precip_lat0 = phimin + delY(1) / 2 |
378 |
uwind_lat0 = phimin + delY(1) / 2 |
379 |
lwflux_lat0 = phimin + delY(1) / 2 |
380 |
swdown_lat0 = phimin + delY(1) / 2 |
381 |
lwdown_lat0 = phimin + delY(1) / 2 |
382 |
apressure_lat0 = phimin + delY(1) / 2 |
383 |
ustress_nlon = Nx |
384 |
ustress_nlat = Ny |
385 |
vstress_nlon = Nx |
386 |
vstress_nlat = Ny |
387 |
hflux_nlon = Nx |
388 |
hflux_nlat = Ny |
389 |
sflux_nlon = Nx |
390 |
sflux_nlat = Ny |
391 |
swflux_nlon = Nx |
392 |
swflux_nlat = Ny |
393 |
runoff_nlon = Nx |
394 |
runoff_nlat = Ny |
395 |
atemp_nlon = Nx |
396 |
atemp_nlat = Ny |
397 |
aqh_nlon = Nx |
398 |
aqh_nlat = Ny |
399 |
evap_nlon = Nx |
400 |
evap_nlat = Ny |
401 |
precip_nlon = Nx |
402 |
precip_nlat = Ny |
403 |
uwind_nlon = Nx |
404 |
uwind_nlat = Ny |
405 |
vwind_nlon = Nx |
406 |
vwind_nlat = Ny |
407 |
lwflux_nlon = Nx |
408 |
lwflux_nlat = Ny |
409 |
swdown_nlon = Nx |
410 |
swdown_nlat = Ny |
411 |
lwdown_nlon = Nx |
412 |
lwdown_nlat = Ny |
413 |
apressure_nlon = Nx |
414 |
apressure_nlat = Ny |
415 |
Ustress_lon_inc = delX(1) |
416 |
vstress_lon_inc = delX(1) |
417 |
hflux_lon_inc = delX(1) |
418 |
sflux_lon_inc = delX(1) |
419 |
swflux_lon_inc = delX(1) |
420 |
runoff_lon_inc = delX(1) |
421 |
atemp_lon_inc = delX(1) |
422 |
aqh_lon_inc = delX(1) |
423 |
evap_lon_inc = delX(1) |
424 |
precip_lon_inc = delX(1) |
425 |
uwind_lon_inc = delX(1) |
426 |
vwind_lon_inc = delX(1) |
427 |
lwflux_lon_inc = delX(1) |
428 |
swdown_lon_inc = delX(1) |
429 |
lwdown_lon_inc = delX(1) |
430 |
apressure_lon_inc = delX(1) |
431 |
DO i=1,MAX_LAT_INC |
432 |
IF (i.LT.Ny) THEN |
433 |
vstress_lat_inc(i) = delY(i) |
434 |
vwind_lat_inc(i) = delY(i) |
435 |
ustress_lat_inc(i) = (delY(i) + delY(i)) / 2. |
436 |
hflux_lat_inc(i) = (delY(i) + delY(i)) / 2. |
437 |
sflux_lat_inc(i) = (delY(i) + delY(i)) / 2. |
438 |
swflux_lat_inc(i) = (delY(i) + delY(i)) / 2. |
439 |
runoff_lat_inc(i) = (delY(i) + delY(i)) / 2. |
440 |
atemp_lat_inc(i) = (delY(i) + delY(i)) / 2. |
441 |
aqh_lat_inc(i) = (delY(i) + delY(i)) / 2. |
442 |
evap_lat_inc(i) = (delY(i) + delY(i)) / 2. |
443 |
precip_lat_inc(i) = (delY(i) + delY(i)) / 2. |
444 |
uwind_lat_inc(i) = (delY(i) + delY(i)) / 2. |
445 |
lwflux_lat_inc(i) = (delY(i) + delY(i)) / 2. |
446 |
swdown_lat_inc(i) = (delY(i) + delY(i)) / 2. |
447 |
lwdown_lat_inc(i) = (delY(i) + delY(i)) / 2. |
448 |
apressure_lat_inc(i) = (delY(i) + delY(i)) / 2. |
449 |
ELSE |
450 |
ustress_lat_inc(i) = 0. |
451 |
vstress_lat_inc(i) = 0. |
452 |
hflux_lat_inc(i) = 0. |
453 |
sflux_lat_inc(i) = 0. |
454 |
swflux_lat_inc(i) = 0. |
455 |
runoff_lat_inc(i) = 0. |
456 |
atemp_lat_inc(i) = 0. |
457 |
aqh_lat_inc(i) = 0. |
458 |
evap_lat_inc(i) = 0. |
459 |
precip_lat_inc(i) = 0. |
460 |
uwind_lat_inc(i) = 0. |
461 |
vwind_lat_inc(i) = 0. |
462 |
lwflux_lat_inc(i) = 0. |
463 |
swdown_lat_inc(i) = 0. |
464 |
lwdown_lat_inc(i) = 0. |
465 |
apressure_lat_inc(i) = 0. |
466 |
ENDIF |
467 |
ENDDO |
468 |
#endif /* USE_EXF_INTERPOLATION */ |
469 |
|
470 |
c Check for the availability of the right calendar version. |
471 |
if ( calendarversion .ne. usescalendarversion ) then |
472 |
print*,' exf_readparms: You are not using the appropriate' |
473 |
print*,' version of the calendar package.' |
474 |
print* |
475 |
print*,' You are using Calendar version: ', calendarversion |
476 |
print*,' Please use Calendar version: ', usescalendarversion |
477 |
stop ' stopped in exf_readparms.' |
478 |
endif |
479 |
|
480 |
c Next, read the forcing data file. |
481 |
WRITE(msgBuf,'(A)') 'EXF_READPARMS: opening data.exf' |
482 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
483 |
& SQUEEZE_RIGHT , 1) |
484 |
|
485 |
CALL OPEN_COPY_DATA_FILE( |
486 |
I 'data.exf', 'EXF_READPARMS', |
487 |
O iUnit, |
488 |
I myThid ) |
489 |
|
490 |
READ( iUnit, nml = exf_nml ) |
491 |
|
492 |
WRITE(msgBuf,'(A)') |
493 |
& 'EXF_READPARMS: finished reading data.exf' |
494 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
495 |
& SQUEEZE_RIGHT , 1) |
496 |
|
497 |
CLOSE( iUnit ) |
498 |
|
499 |
call exf_check( mythid ) |
500 |
|
501 |
c Complete the start date specifications for the forcing |
502 |
c fields to get a complete calendar date array. |
503 |
|
504 |
#ifdef ALLOW_ATM_WIND |
505 |
if ( uwindfile .NE. ' ' ) then |
506 |
call cal_FullDate ( uwindstartdate1 , uwindstartdate2, |
507 |
& date_array ,mythid ) |
508 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
509 |
call cal_ToSeconds ( difftime, uwindstartdate ,mythid ) |
510 |
uwindstartdate = modelstart + uwindstartdate |
511 |
endif |
512 |
if ( vwindfile .NE. ' ' ) then |
513 |
call cal_FullDate ( vwindstartdate1 , vwindstartdate2, |
514 |
& date_array ,mythid ) |
515 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
516 |
call cal_ToSeconds ( difftime, vwindstartdate ,mythid ) |
517 |
vwindstartdate = modelstart + vwindstartdate |
518 |
endif |
519 |
#else |
520 |
if ( ustressfile .NE. ' ' ) then |
521 |
call cal_FullDate ( ustressstartdate1 , ustressstartdate2, |
522 |
& date_array ,mythid ) |
523 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
524 |
call cal_ToSeconds ( difftime, ustressstartdate ,mythid ) |
525 |
ustressstartdate = modelstart + ustressstartdate |
526 |
endif |
527 |
if ( vstressfile .NE. ' ' ) then |
528 |
call cal_FullDate ( vstressstartdate1 , vstressstartdate2, |
529 |
& date_array ,mythid ) |
530 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
531 |
call cal_ToSeconds ( difftime, vstressstartdate ,mythid ) |
532 |
vstressstartdate = modelstart + vstressstartdate |
533 |
endif |
534 |
#endif |
535 |
|
536 |
#ifdef ALLOW_ATM_TEMP |
537 |
if ( atempfile .NE. ' ' ) then |
538 |
call cal_FullDate ( atempstartdate1 , atempstartdate2, |
539 |
& date_array ,mythid ) |
540 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
541 |
call cal_ToSeconds ( difftime, atempstartdate ,mythid ) |
542 |
atempstartdate = modelstart + atempstartdate |
543 |
endif |
544 |
if ( aqhfile .NE. ' ' ) then |
545 |
call cal_FullDate ( aqhstartdate1 , aqhstartdate2, |
546 |
& date_array ,mythid ) |
547 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
548 |
call cal_ToSeconds ( difftime, aqhstartdate ,mythid ) |
549 |
aqhstartdate = modelstart + aqhstartdate |
550 |
endif |
551 |
if ( lwfluxfile .NE. ' ' ) then |
552 |
call cal_FullDate ( lwfluxstartdate1 , lwfluxstartdate2, |
553 |
& date_array ,mythid ) |
554 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
555 |
call cal_ToSeconds ( difftime, lwfluxstartdate ,mythid ) |
556 |
lwfluxstartdate = modelstart + lwfluxstartdate |
557 |
endif |
558 |
if ( precipfile .NE. ' ' ) then |
559 |
call cal_FullDate ( precipstartdate1 , precipstartdate2, |
560 |
& date_array ,mythid ) |
561 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
562 |
call cal_ToSeconds ( difftime, precipstartdate ,mythid ) |
563 |
precipstartdate = modelstart + precipstartdate |
564 |
endif |
565 |
#else |
566 |
if ( hfluxfile .NE. ' ' ) then |
567 |
call cal_FullDate ( hfluxstartdate1 , hfluxstartdate2, |
568 |
& date_array ,mythid ) |
569 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
570 |
call cal_ToSeconds ( difftime, hfluxstartdate ,mythid ) |
571 |
hfluxstartdate = modelstart + hfluxstartdate |
572 |
endif |
573 |
if ( sfluxfile .NE. ' ' ) then |
574 |
call cal_FullDate ( sfluxstartdate1 , sfluxstartdate2, |
575 |
& date_array ,mythid ) |
576 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
577 |
call cal_ToSeconds ( difftime, sfluxstartdate ,mythid ) |
578 |
sfluxstartdate = modelstart + sfluxstartdate |
579 |
endif |
580 |
#endif |
581 |
|
582 |
#if defined(ALLOW_ATM_TEMP) || defined(SHORTWAVE_HEATING) |
583 |
if ( swfluxfile .NE. ' ' ) then |
584 |
call cal_FullDate ( swfluxstartdate1 , swfluxstartdate2, |
585 |
& date_array ,mythid ) |
586 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
587 |
call cal_ToSeconds ( difftime, swfluxstartdate ,mythid ) |
588 |
swfluxstartdate = modelstart + swfluxstartdate |
589 |
endif |
590 |
#endif |
591 |
|
592 |
#ifdef EXF_READ_EVAP |
593 |
if ( evapfile .NE. ' ' ) then |
594 |
call cal_FullDate ( evapstartdate1 , evapstartdate2, |
595 |
& date_array ,mythid ) |
596 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
597 |
call cal_ToSeconds ( difftime, evapstartdate ,mythid ) |
598 |
evapstartdate = modelstart + evapstartdate |
599 |
endif |
600 |
#endif |
601 |
|
602 |
#ifdef ALLOW_RUNOFF |
603 |
if ( runofffile .NE. ' ' .AND. runoffperiod .NE. 0. ) then |
604 |
call cal_FullDate ( runoffstartdate1 , runoffstartdate2, |
605 |
& date_array ,mythid ) |
606 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
607 |
call cal_ToSeconds ( difftime, runoffstartdate ,mythid ) |
608 |
runoffstartdate = modelstart + runoffstartdate |
609 |
endif |
610 |
#endif |
611 |
|
612 |
#ifdef ALLOW_DOWNWARD_RADIATION |
613 |
if ( swdownfile .NE. ' ' ) then |
614 |
call cal_FullDate ( swdownstartdate1 , swdownstartdate2, |
615 |
& date_array ,mythid ) |
616 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
617 |
call cal_ToSeconds ( difftime, swdownstartdate ,mythid ) |
618 |
swdownstartdate = modelstart + swdownstartdate |
619 |
endif |
620 |
if ( lwdownfile .NE. ' ' ) then |
621 |
call cal_FullDate ( lwdownstartdate1 , lwdownstartdate2, |
622 |
& date_array ,mythid ) |
623 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
624 |
call cal_ToSeconds ( difftime, lwdownstartdate ,mythid ) |
625 |
lwdownstartdate = modelstart + lwdownstartdate |
626 |
endif |
627 |
#endif |
628 |
|
629 |
#ifdef ATMOSPHERIC_LOADING |
630 |
if ( apressurefile .NE. ' ' ) then |
631 |
call cal_FullDate ( apressurestartdate1, apressurestartdate2, |
632 |
& date_array ,mythid ) |
633 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
634 |
call cal_ToSeconds ( difftime, apressurestartdate ,mythid ) |
635 |
apressurestartdate = modelstart + apressurestartdate |
636 |
endif |
637 |
#endif |
638 |
|
639 |
#ifdef ALLOW_OBCS |
640 |
#ifdef ALLOW_OBCS_NORTH |
641 |
if ( obcsNperiod .NE. 0 ) then |
642 |
call cal_FullDate ( obcsNstartdate1 , obcsNstartdate2, |
643 |
& date_array ,mythid ) |
644 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
645 |
call cal_ToSeconds ( difftime, obcsNstartdate ,mythid ) |
646 |
obcsNstartdate = modelstart + obcsNstartdate |
647 |
endif |
648 |
#endif |
649 |
#ifdef ALLOW_OBCS_SOUTH |
650 |
if ( obcsSperiod .NE. 0 ) then |
651 |
call cal_FullDate ( obcsSstartdate1 , obcsSstartdate2, |
652 |
& date_array ,mythid ) |
653 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
654 |
call cal_ToSeconds ( difftime, obcsSstartdate ,mythid ) |
655 |
obcsSstartdate = modelstart + obcsSstartdate |
656 |
endif |
657 |
#endif |
658 |
#ifdef ALLOW_OBCS_EAST |
659 |
if ( obcsEperiod .NE. 0 ) then |
660 |
call cal_FullDate ( obcsEstartdate1 , obcsEstartdate2, |
661 |
& date_array ,mythid ) |
662 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
663 |
call cal_ToSeconds ( difftime, obcsEstartdate ,mythid ) |
664 |
obcsEstartdate = modelstart + obcsEstartdate |
665 |
endif |
666 |
#endif |
667 |
#ifdef ALLOW_OBCS_WEST |
668 |
if ( obcsNperiod .NE. 0 ) then |
669 |
call cal_FullDate ( obcsWstartdate1 , obcsWstartdate2, |
670 |
& date_array ,mythid ) |
671 |
call cal_TimePassed(modelstartdate,date_array,difftime,mythid) |
672 |
call cal_ToSeconds ( difftime, obcsWstartdate ,mythid ) |
673 |
obcsWstartdate = modelstart + obcsWstartdate |
674 |
endif |
675 |
#endif |
676 |
#endif /* ALLOW_OBCS */ |
677 |
|
678 |
_END_MASTER( mythid ) |
679 |
|
680 |
_BARRIER |
681 |
|
682 |
c-- Summarize the External forcing's setup. |
683 |
call exf_summary( mythid ) |
684 |
|
685 |
c-- set climatology parameters |
686 |
call exf_clim_readparms( mythid ) |
687 |
|
688 |
c-- summarize climatologic forcing configuration |
689 |
call exf_clim_summary( mythid ) |
690 |
|
691 |
end |